Electrochemically-Formed Disordered Rock Salt ω‑Li x V9Mo6O40 as a Fast-Charging Li-Ion Electrode Material

Electrochemically-formed disordered rock salt compounds are an emerging class of Li-ion electrode materials for fast-charging energy storage. However, the specific factors that govern the formation process and the resulting charge storage performance are not well understood. Here, we characterize th...

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Veröffentlicht in:	Chemistry of materials 2024-12, Vol.36 (24), p.11770-11780
Hauptverfasser:	Robertson, Daniel D., Salamat, Charlene Z., Pe, David J., Cumberbatch, Helen, Agyeman-Budu, David N., Nelson Weker, Johanna, Tolbert, Sarah H.
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container_title	Chemistry of materials
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creator	Robertson, Daniel D. Salamat, Charlene Z. Pe, David J. Cumberbatch, Helen Agyeman-Budu, David N. Nelson Weker, Johanna Tolbert, Sarah H.
description	Electrochemically-formed disordered rock salt compounds are an emerging class of Li-ion electrode materials for fast-charging energy storage. However, the specific factors that govern the formation process and the resulting charge storage performance are not well understood. Here, we characterize the transformation mechanism and charge storage properties of an electrochemically-formed disordered rock salt from V9Mo6O40 (VMO). The crystal structure of VMO has similar motifs to that of α-V2O5, a well-studied analogue, but VMO has less mechanical flexibility due to additional corner-sharing octahedra in its structure. As a result, VMO undergoes a single-step transformation pathway, which we characterize through operando X-ray diffraction, and forms an unusual highly distorted lamellar microstructure, as we show with high-resolution transmission electron microscopy. The resulting Li x VMO material shows fast charging and other electrochemical characteristics and performance typical of many nanomaterials, even though the material is composed of relatively large particles.
doi_str_mv	10.1021/acs.chemmater.4c01732
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title	Electrochemically-Formed Disordered Rock Salt ω‑Li x V9Mo6O40 as a Fast-Charging Li-Ion Electrode Material
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